Fanyu Zhou scite author profile

The acoustic posterior shadowing effects of bubbles influence the accuracy for defining the location and range of ablated thermal lesions during focused ultrasound surgery when using ultrasonic monitoring imaging. This paper explored the feasibility of using Nakagami distribution to evaluate the ablated region induced by focused ultrasound exposures at different acoustic power levels in transparent tissue-mimicking phantoms. The mean value of the Nakagami parameter m was about 0.5 in the cavitation region and increased to around 1 in the ablated region. Nakagami images were not subject to significant shadowing effects of bubbles. Ultrasound-induced thermal lesions observed in the photos and Nakagami images were overshadowed by bubbles in the B-mode images. The lesion size predicted in the Nakagami images was smaller than that predicted in the photos due to the sub resolvable effect of Nakagami imaging at the interface. This preliminary study on tissue-mimicking phantom suggested that the Nakagami parameter m may have the potential use in evaluating the formation of ultrasound-induced thermal lesion when the shadowing effect of bubbles is strong while the thermal lesion was small. Further studies in vivo and in vitro will be needed to evaluate the potential application.

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Compare ultrasound-mediated heating and cavitation between flowing polymer- and lipid-shelled microbubbles during focused ultrasound exposures

Zhang

Zong

Wan

et al. 2012

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This paper compares the efficiency of flowing polymer- and lipid-shelled microbubbles (MBs) in the heating and cavitation during focused ultrasound exposures. Temperature and cavitation activity were simultaneously measured as the two types of shelled MBs and saline flowing through a 3 mm diameter vessel in the phantom with varying flow velocities (0-20 cm/s) at different acoustic power levels (0.6-20 W) with each exposure for 5 s. Temperature and cavitation for the lipid-shelled MBs were higher than those for the polymer-shelled MBs. Temperature rise decreased with increasing flow velocities for the two types of shelled MBs and saline at acoustic power 1.5 W. At acoustic power 11.1 W, temperature rise increased with increasing flow velocities for the lipid-shelled MBs. For the polymer-shelled MBs, the temperature rise increased with increasing flow velocities from 3-15 cm/s and decreased at 20 cm/s. Cavitation increased with increasing flow velocity for the two shelled MBs and there were no significant changes of cavitation with increasing flow velocities for saline. These results suggested that lipid-shelled MBs may have a greater efficiency than polymer-shelled MBs in heating and cavitation during focused ultrasound exposures.

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Enhanced Lesion‐to‐Bubble Ratio on Ultrasonic Nakagami Imaging for Monitoring of High‐Intensity Focused Ultrasound

Zhang

Zhou

et al. 2014

J of Ultrasound Medicine

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Zinc-Guided 3D Graphene for Thermally Chargeable Supercapacitors to Harvest Low-Grade Heat

et al. 2022

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Low-grade heat energy recycling is the key technology of waste-heat utilization, which needs to be improved. Here, we use a zinc-assisted solid-state pyrolysis route to prepare zinc-guided 3D graphene (ZnG), a 3D porous graphene with the interconnected structure. The obtained ZnG, with a high specific surface area of 1817 m2 g−1 and abundant micropores and mesopores, gives a specific capacitance of 139 F g−1 in a neutral electrolyte when used as electrode material for supercapacitors. At a high current density of 8 A g−1, the capacitance retention is 93% after 10,000 cycles. When ZnG is used for thermally chargeable supercapacitors, the thermoelectric conversion of the low-grade heat energy is successfully realized. This work thus provides a demonstration for low-grade heat energy conversion.

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Enhanced cavitation and heating of flowing polymer- and lipid-shelled microbubbles and phase-shift nanodroplets during focused ultrasound exposures

Zhang¹,

Cui²,

Li³

et al. 2017

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Abstract. Cavitation and heating are the primary mechanisms of numerous therapeutic applications of ultrasound. Various encapsulated microbubbles (MBs) and phase-shift nanodroplets (NDs) have been used to enhance local cavitation and heating, creating interests in developing ultrasound therapy using these encapsulated MBs and NDs. This work compared the efficiency of flowing polymer-and lipid-shelled MBs and phase-shift NDs in cavitation and heating during focused ultrasound (FUS) exposures. Cavitation activity and temperature were investigated when the solution of polymer-and lipid-shelled MBs and NDs flowed through the vessel in a tissue-mimicking phantom with varying flow velocities when exposed to FUS at various acoustic power levels. The inertial cavitation dose (ICD) for the encapsulated MBs and NDs were higher than those for the saline. Temperature initially increased with increasing flow velocities of the encapsulated MBs, followed by a decrease of the temperature with increasing flow velocities when the velocity was much higher. Meanwhile, ICD showed a trend of increases with increasing flow velocity. For the phase-shift NDs, ICD after the first FUS exposure was lower than those after the second FUS exposure. For the encapsulated MBs, ICD after the first FUS exposure was higher than those after the second FUS exposure. Further studies are necessary to investigate the treatment efficiency of different encapsulated MBs and phase-shift NDs in cavitation and heating.

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Assessment of asphalt pavement aging condition based on GF-2 high-resolution remote sensing image

Wang

Yang

Xie

et al. 2023

Preprint

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The aging condition of asphalt pavement is a crucial basis for traffic infrastructure evaluation. Due to the long time and high cost required to monitor and identify the aging condition of asphalt pavement, many current studies have focused on the application of satellite remote sensing methods. Based on the previous research results, we used PCI data and GF-2 high-resolution remote sensing images. The experimental results show that the DHI, RHI, and NDHI using GF-2 data can reflect the aging of asphalt pavement to varying degrees. This paper presents an entirely new asphalt pavement aging index, named the New Aging Index (NAI). It can not only perfectly identify the different aging conditions of asphalt pavements, but also has a significant distinguishing effect on the pavement interference information such as shadows and vehicles. NAI combined with GF-2 high-resolution remote sensing images can be used to assess the aging condition of asphalt pavement.

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Evaluate thermal lesion using Nakagami imaging for monitoring of high-intensity focused ultrasound

Zhang

Zhou

et al. 2017

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Palladium-catalyzed hydroboration reaction of unactivated alkynes with bis (pinacolato) diboron in water

Yang

et al. 2022

RSC Adv.

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Fanyu Zhou

Feasibility of using Nakagami distribution in evaluating the formation of ultrasound-induced thermal lesions

Compare ultrasound-mediated heating and cavitation between flowing polymer- and lipid-shelled microbubbles during focused ultrasound exposures

Enhanced Lesion‐to‐Bubble Ratio on Ultrasonic Nakagami Imaging for Monitoring of High‐Intensity Focused Ultrasound

Zinc-Guided 3D Graphene for Thermally Chargeable Supercapacitors to Harvest Low-Grade Heat

Enhanced cavitation and heating of flowing polymer- and lipid-shelled microbubbles and phase-shift nanodroplets during focused ultrasound exposures

Assessment of asphalt pavement aging condition based on GF-2 high-resolution remote sensing image

Evaluate thermal lesion using Nakagami imaging for monitoring of high-intensity focused ultrasound

Palladium-catalyzed hydroboration reaction of unactivated alkynes with bis (pinacolato) diboron in water

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